Cone penetration tests (CPTs) in bi-phase soils: A material point approach with rigid body interaction

Bird, Robert; Pretti, Giuliano; Coombs, William M; Augarde, Charles E; Sharif, Yaseen; Brown, Michael; Carter, Gareth; Johnson, Kirstin

Cone penetration tests (CPTs) in bi-phase soils: A material point approach with rigid body interaction

Bird, Robert; Pretti, Giuliano; Coombs, William M; Augarde, Charles E; Sharif, Yaseen; Brown, Michael; Carter, Gareth; Johnson, Kirstin

Authors

Dr Robert Bird robert.e.bird@durham.ac.uk
PDRA in Computational Solid Mechanics

Dr Giuliano Pretti giuliano.pretti@durham.ac.uk
Postdoctoral Research Associate

Professor William Coombs w.m.coombs@durham.ac.uk
Professor

Professor Charles Augarde charles.augarde@durham.ac.uk
Head Of Department

Yaseen Sharif

Michael Brown

Gareth Carter

Kirstin Johnson

Abstract

Cone Penetration Tests (CPTs) can be used to determine in-situ material properties and represent a practical choice for site investigation offshore, especially for linear infrastructure, such as Offshore Wind export cables. Information gained from CPTs is key for predicting soil-structure interaction behaviour , for example when predicting the tow forces involved in seabed ploughing [1], as a CPT provides a useful analogue to the process. The numerical modelling of CPTs is challenging due to the significant distortion in soil displaced by the penetrating cone. This means that solving this sort of problem using finite elements, although not impossible, is numerically tiresome in terms of remeshing and mapping of state variables [2]. Here the Material Point Method (MPM) is adopted to model saturated bi-phase materials using the u − p formulation, which interacts with a rigid body through a normal penalty contact and Coulomb stick-slip friction. Since the penetration velocity is relatively slow with respect to the total time, the method is assumed pseudo-static and solved implicitly for computational efficiency.

Citation

Bird, R., Pretti, G., Coombs, W. M., Augarde, C. E., Sharif, Y., Brown, M., …Johnson, K. (2023, April). Cone penetration tests (CPTs) in bi-phase soils: A material point approach with rigid body interaction. Paper presented at UK Association for Computational Mechanics 2023 (UKACM 2023), University of Warwick, UK

Presentation Conference Type	Conference Paper (unpublished)
Conference Name	UK Association for Computational Mechanics 2023 (UKACM 2023)
Conference Location	University of Warwick, UK
Start Date	Apr 19, 2023
End Date	Apr 21, 2023
Deposit Date	Sep 18, 2023
Keywords	Material Point Method; Cone Penetration Test; contact; bi-phase; rigid body
Public URL	https://durham-repository.worktribe.com/output/1740753
Publisher URL	https://sites.google.com/view/ukacm2023conference

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